Abstract:The direct flotation behavior and adsorption mechanism of 2-ethyl-2-hexenoic hydroxamic acid (EHHA) to malachite were investigated by micro-flotation tests of pure minerals, bench scale flotation tests of sulfide-oxide mixed actual copper ore, FT-IR spectra, Zeta potential measurements, solution chemistry analyses of collectors and minerals, and density functional theory (DFT) calculations. The direct micro-flotation results of pure minerals indicate that EHHA exhibits superior flotation performance to malachite, and floates out 95.33% malachite at pH=6 with dosage of 200 mg/L. The results of flotation tests of sulfide-oxide actual copper ore show that, the Cu recovery rate obtained by EHHA’s direct flotation under the condition of weak acid pulp is 1.87% higher than that obtained by isobutyl xanthate’s (IBX) sulfide flotation. The analyses of FT-IR spectra and Zeta potential demonstrate that EHHA might chemisorb onto malachite surfaces by form of five-membered chelates. The solution chemistry analyses of collectors and minerals indicate that EHHA and OHA might be adsorbed onto malachite surfaces by form of chelates with Cu2+ and Cu2+ hydroxyl complex compounds, respectively, and the related FT-IR analysis results further confirm this conclusion. DFT calculation results imply EHHA owns stronger affinity to malachite due to owning a larger dipole moment and higher Mulliken charge comparing to IBX.

Key words: 2-ethyl-2-hexenoic hydroxamic acid; malachite; flotation; adsorption